Interaction request processing according to client pre-configured schedule

ABSTRACT

An apparatus is provided and includes a processor and a memory, the memory storing instructions that when executed from a non-transitory physical medium by the processor cause the processor to detect when a request for interaction that is configured for a scheduled processing is received or otherwise registered at a service access point associated with a contact center, identify schedule data from the request and add the schedule data along with a request identification and a location identifier to a scheduling and reporting application, consult a contact center interaction routing system in response to determining that the scheduled interaction request is to be processed, and route or cause processing of the interaction request based on the schedule data. According to one embodiment, the schedule data includes a scheduled time and date for processing the request.

BACKGROUND

1. Field

The present invention is in the field of contact center service andpertains particularly to methods and apparatus for processing deferrableinteraction requests in a contact center according to customer schedule.

2. Discussion of the State of the Art

In the field of contact center service, contact centers exist for thepurpose of customer fulfillment relative to sales and service. State ofart contact centers are capable of managing communications over severaldifferent channels including voice, messaging, and other Web-basedcommunication such as chat, form submission, Web invitation, and linkredirection.

Customers and visitors may initiate contact with a contact center in avariety of ways. The contact center may be reached by email, chatrequest, text messaging, telephone, cellular telephone, voice overInternet protocol (VoIP), Web form submission, hypertext transferprotocol (HTTP) link redirect, and URL activation. One challenge forcontact centers is to be in a position to assist customers at a timethat is most convenient for the customer. Successful handling ofincoming traffic over any channel depends upon a variety of conditions.Most notable, for requests where live interaction with an agent orautomated process is desired, the customer waits for the agent orprocess to become available. The customer may have scheduled duties andother responsibilities and may not be amenable to a long wait in queue.Many call centers have a “call me back” feature wherein a customer maybe prompted to accept a call back from the center after making intentknown that the customer desires interaction with the center. The callbeck feature or option may be utilized in messaging, Web interaction,form submission, voice call, and VoIP.

Use of a call back feature by customers may rise dramatically if thecenter is experiencing peak traffic and resources are currently notavailable to handle requests for interaction. The call back feature isrelatively generic in that it does not directly promise or guaranteethat a call back response associated with a request is forthcoming. sMoreover, the call back windows (time range for return call) aredictated by the contact center and the customer may not be quite surethat the request will be responded, let alone, when the response islikely to occur.

Therefore, what is clearly needed is a method and apparatus for definingthe start time of processing interaction requests according to customerpreferences.

SUMMARY

In one implementation of the present invention an apparatus is providedand includes a processor and a memory, the memory storing instructionsthat when executed from a non-transitory physical medium cause theprocessor to detect when a request for interaction that is configuredfor a scheduled processing is received or otherwise registered at aservice access point associated with a contact center, identify scheduledata from the request and add the schedule data along with a requestidentification and a location identifier to a scheduling and reportingapplication, consult a contact center interaction routing system inresponse to determining that the scheduled interaction request is to beprocessed, and route or cause processing of the interaction requestbased on the schedule data. According to one embodiment, the scheduledata includes a scheduled time and date for processing the request.

In one implementation, the request for interaction is a voice request inthe form of plain old telephony service (POTS) or a voice over Internetprotocol (VoIP). In one implementation, the request for interaction isan email, a short message service (SMS), or a multimedia message service(MMS) request. In another implementation, the request for interaction isa video mail, a video call, or a hypertext transfer protocol (HTTP)request.

In one implementation, the communications appliance is a telephone, acellular phone, an android device, an electronic reader, or a tetheredor un-tethered computer. In one implementation of the present invention,the service access point is a telephone switch, a call distributor, or anetwork-connected server. In one implementation, the scheduling andreporting application is a work force management application havingaccess to workforce availability and schedule data. In oneimplementation, the routing system is one of a message routing system, avoice call routing system, or an integrated system adapted to routetext, voice, and multimedia requests for interaction. In oneimplementation, the schedule data includes a plurality of times toprocess the request or a plurality of media types for transmitting aresponse, wherein a particular media type is selected from the pluralityof media types based on a particular one of the plurality of timesselected to process the request.

According to another implementation of the invention, an apparatus isprovided and includes a processor and a memory, the memory storinginstructions that when executed by the processor cause the processor todistribute to or serve to a communications appliance, an executableinterface for associating a schedule for processing to a request forinteraction, detect when a request for interaction is initiated on acommunications appliance, and execute or otherwise present the interfaceto facilitate configuration of the schedule for processing relative tothe request for interaction. In one implementation, the request forinteraction is a voice request in the form of plain old telephonyservice (POTS) or a voice over Internet protocol (VoIP). In oneimplementation, the request for interaction is an email, a short messageservice (SMS), or a multimedia message service (MMS) request. In oneimplementation, the request for interaction is a video mail, a videocall, or a hypertext transfer protocol (HTTP) request. In oneimplementation, the communications appliance is a telephone, a cellularphone, an android device, an electronic reader, or a tethered orun-tethered computer. In one implementation, the schedule data relativeto the request for interaction includes more than one time to processthe request and or process the request and or more than one mediadesignation for a response depending upon the time processing occurs.

According to one aspect of the present invention, a method is providedincluding acts detecting when a request for interaction that isconfigured for a scheduled processing is received or otherwiseregistered at a service access point of a contact center, collectingschedule data from the request and adding the schedule data along withrequest identification and location in the system to a scheduling andreporting application, consulting a contact center interaction routingsystem when the need to process a scheduled interaction request arises,and routing or otherwise causing processing of the interaction requestat or just prior to the scheduled processing time and date. In oneaspect of the method, the service access point is a telephone switch, acall distributor, or a network-connected server. In one aspect, thescheduling and reporting application is a work force managementapplication having access to workforce availability and schedule data.In one aspect of the method, the routing system is one of a messagerouting system, a voice call routing system, or an integrated systemadapted to route text, voice, and multimedia requests for interaction.In one aspect, the schedule data relative to the request for interactionincludes more than one time to process to the request and or more thanone media designation for a response depending upon the time processingoccurs.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an architectural diagram of a communications networksupporting customer-driven scheduling of interaction processingaccording to an implementation of the present invention.

FIG. 2 is a sequence diagram depicting interaction between call centercomponents and systems during interaction processing per customer-drivenschedule.

FIG. 3 is a process flow chart depicting acts for initiating and sendingan interaction requests with a processing schedule. FIG. 4 is a processflow chart depicting acts for offering customer-driven processscheduling from an interactive media response (IMR) system according toan implementation of the present invention.

FIG. 5 is a process flow chart depicting acts for leveraging token-basedsecurity for processing scheduled interaction requests according to animplementation of the present invention.

DETAILED DESCRIPTION

In general terms, embodiments of the present invention are directed to asystem and method for facilitating contact center interaction requestprocessing according to a customer-configured schedule for processing.Embodiments of the present invention are described in enabling detailusing the following implementations, which may describe more than onerelevant implementation falling within the scope of the presentinvention.

FIG. 1 is an architectural diagram of a communications network 100supporting customer-driven scheduling of interaction processingaccording to an implementation of the present invention. Communicationsnetwork 100 may include the well-known Internet network representedherein by an Internet backbone 101. Internet Backbone 101 may representall of the lines, equipment, and access points that make up the Internetnetwork as a whole, including any connected sub-networks. Thereforethere are no geographic limitations to the practice of the presentinvention. Network 101 may be a corporate wide area network (WAN), or amunicipal area network (MAN) without departing from the spirit and scopeof the present invention. According to one implementation, the Internetnetwork is chosen because of its high public access characteristic.Internet backbone 101 may also be referred to as Internet 101 in thisspecification.

A wireless communications carrier network 102 is depicted in thisarchitectural implementation and may have connection to Internet 101through a multimedia gateway 108. Wireless network 102 may be a cellulartelephony network such as a code division multiple access (CDMA), a timedivision multiple access (TDMA), or a global system for mobilecommunications (GSM) network without departing from the spirit and scopeof the invention. Network 102 may also be a wireless fidelity (WiFi) oranother wireless communications access network without departing fromthe spirit and scope of the invention.

A publicly switched telephone network (PSTN) 103 is depicted in thisarchitectural implementation and may have a telephony network connectionto a contact center represented herein as a contact center 104 enclosedby a broken boundary. PSTN 103 may also have connection to Internet 101(not illustrated) through an Internet service provider company and atelephony-to-Internet protocol gateway. Methods of Internet access fromPSTN network 103 may include dialup/modem, digital subscriber line(DSL), integrated services digital network (ISDN), cable/modem, or thelike. Customers of contact center 104 are represented herein ascommunications appliance 107 (1-n) in PSTN 103 and communicationsappliances 109 (1-n) in wireless carrier network 102. Appliances 109(1-n) may include a smart phone or iPad computing appliance 109 (1), alaptop computing appliance 109 (2), and a cellular telephone 109 (n), orany other appliance enabled for Internet access. In one implementationwireless carrier network 102 and PSTN network 103 are bridged (notillustrated) for seamless communication between networks and theInternet. Seamless communication between the Internet, a wirelesssub-network, and the PSTN network is well established and wellunderstood in the art. Such bridging components include gateways,switches, edge routers, and the like and may not be specificallydepicted in this architectural representation but may be assumed presentwhere applicable according to known art.

Contact center 104 may be a single contact center or a federation ofmultiple contact centers without departing from the spirit and scope ofthe present invention. A single contact center is represented in thisimplementation and is deemed sufficient for description of the presentinvention. Contact center 104 is further represented by a local areanetwork (LAN) 105. LAN 105 may support contact center equipment andnetwork-based communications equipment. Contact center 104 may include acentral office telephone switch 110 that may represent the last stop forincoming calls destined for agents and or services within the center.Switch 110 may be an automated call distributor (ACD), a private branchexchange (PBX) switch, or some other type of telephone switch withoutdeparting from the spirit and scope of the present invention. In oneimplementation switch 110 may be a “soft” switch implemented in softwarewithout departing from the spirit and scope of the present invention.

Telephone switch 110 is accessible from PSTN network 103 via telephonetrunk from a PSTN telephone switch 106. Switch 106 may be comparable indescription to switch 110 in contact center 104. Switch 110 in contactcenter 104 may be enhanced for routing and switching intelligence via aprocessor 111. Processor 111 may have connection to switch 110 via alink. LAN 105 may support processor 111 in this implementation. Othertelephony service features that may be provided at switch 110 mayinclude interactive media response (IMR) services, agent level routing(ALR) services, conferencing services, and so on. It is noted hereinthat IMR services cover a variety of media channels including voice andmay replace traditional interactive voice response (IVR) services whereapplicable. IVR services may be considered a sub-category of IMR for thepurposes of discussion.

Telephone switch 110 may connect to a plurality of telephonesdistributed throughout contact center 104 which may be connected to theswitch by internal telephony wiring 115. In this architecturalimplementation telephones may also be LAN-connected telephones capableof IP telephony calls. LAN 105 in contact center 104 supports multipleagent workstations 118 (1-n). Agent workstations 118 (1-n) may include aLAN-connected computing appliance such as a desktop computer or terminaland an aforementioned telephone (PSTN or LAN-connected or both). In thisimplementation the agent computing appliances are desktop computershaving display and communications capabilities. Each station may besupported by transaction and servicing software in the form of an agentdesktop (DT) application that enables the agent to log into the contactcenter system and perform all related communications and transactionservices.

LAN 105 may be connected to Internet network 101 on a continuouspersistent basis or during scheduled work periods. Contact center 104may maintain or make use of a Website 122 depicted herein as executingfrom a Web server 119 hosted on Internet 101. Website 122 may includecustomer access points such as embedded contact options for visitingcustomers like “call now” and “call me back”. There may be logininterface for returning customers. Multimedia interfaces facilitatingchat, email, video, messaging, and the like may also be provided forfacilitating customer access and interaction with call center servicesincluding redirection to other service Websites or pages within the samewebsite. Web server 119 may include a processor, a data repository, anda non-transitory medium storing instructions and components for enablingfunctionality as a Web server. A third-party web hosting service mayhost web server 119 or it may be maintained by the contact centerwithout departing from the spirit and scope of the present invention.

LAN 105 within contact center 104 may support various contact centercomponents including but not limited to a universal routing server 112and an authentication server 113. Other supported components may includean application server, a directory server, a statistics server, and acustomer information system among others. The inventor depicts a routingserver and an authentication server as basic components that may beutilized during the practice of the present invention.

Routing server 112 may include a processor, a data repository, and anon-transitory medium containing all of the instruction for enablingfunction as a routing server. Routing server 112 is intended to broadlyrepresent routing capability that may include routing of voice calls,video calls, email, chat requests, and other types of interactionrequests. In one implementation an interaction request may be of theform of activating a Web link or universal resource locator (URL). Itmay be appreciated that there may also be separate dedicated routingsystems for different media types or channels without departing from thespirit and scope of the present invention. Routing server 112 includes adata repository 128 adapted to contain routing strategies and other datarelative to interaction routing.

Authentication server 113 may include a processor, a data repository,and a non-transitory medium storing instructions necessary to enablefunction as an authentication server. Authentication server 113 isintended to broadly represent authentication services available tocontact center 104. Authentication services may utilize the well-knownOAuth protocol. Authentication server 113 is depicted connected to LAN105 in this implementation within the domain of contact center 104.However in one implementation server 113 is a public server hosted onInternet 101.

In one implementation server 113 is responsible for authenticatingresource owners and parties given permission to access otherwiseprotected resources. Resources may include files, data, and live orpending interaction requests. It will be appreciated by one with skillin the art that certain resources owned by customers of contact center104 might be stored on different systems dependant upon the types orclasses of resources without departing from the spirit and scope of thepresent invention. For example customer-shipping history may be storedseparately from pending customer requests or orders for services.Resources may include interaction requests that may be encrypted whenreceived and decrypted using a decryption key available from server 113upon presentation of a valid token.

Internet 101 may support a Web server 120 adapted to host one or moresocial interaction services and a Web server 121. Web server 120 may behosted within the physical domain of contact center 104 and may besupported by LAN 105 without departing from the spirit and scope of thepresent invention. In this implementation Web server 120 is hosted onthe Internet. Web server 120 may be assumed to include a processor, adata repository, and a non-transitory medium (e.g. memory) storing allof the instructions required for enabling the functionality of a Webserver. Web server 120 in one implementation is intended to broadlyrepresent any Web server adapted to host a social interaction serviceand to serve social interaction service home pages or social profilepages to subscribers of such services.

Web server 121 may be hosted within the physical domain of contactcenter 104 and may be supported by LAN 105. In this implementation Webserver 121 is hosted on the Internet but may still be maintained andcontrolled by contact center 104. In one implementation Web server 121is hosted by a third party and provides Web hosting services. Web server121 may be assumed to include a processor, a data repository, and anon-transitory medium (e.g. memory) containing all instruction requiredfor enabling the functionality of a Web server. Web server 121 isintended to broadly represent Web site hosting services for any consumerseeking to establish a Website with a home page such as home page 124depicted in this implementation. Web server 120 hosts a Facebook™Webpage 123 representing a profile page set up by a customer whom issubscribed to the service. Other social interaction services such as MySpace™ for example might be represented herein without departing fromthe spirit and scope of the invention. Facebook™ is just one of manypossible social interaction services that might be hosted on server 120.

LAN 105 within contact center 104 may support an Internet protocolrouter (IPR) 131. IPR 131 may initially receive and route Internettraffic onto and off of LAN 105. IPR 131 may be assumed to include aprocessor, a data repository, and a non-transitory medium (e.g. memory)storing instructions necessary to enable function as a router forrouting Internet traffic onto LAN 105. LAN 105 may also support aworkforce management server (WFM) 114. WFM server 114 may be assumed toinclude a processor, a data repository, and a non-transitory medium(e.g. memory) storing instructions necessary to enable function as aworkforce management server charged with managing the tasks, duties, andschedules of the workforce in contact center 104. In typicalimplementation agents working at stations 118 (1-n) log into WFM 114 atthe beginning of a shift and log out of the server when the shift isover.

In one implementation the system may utilize an authorization procedureto allow third and first party access to resources considered owned by acustomer including pending interaction requests of deferrable multimediatypes that might be waiting in the system for contact center processing.In one implementation a customer such as a customer operating any ofappliances 109 (1-n) or 107 (1-n) may access Website 122 and registerwith the aid of SW 116 a for interaction processing control by specificcustomer-derived schedule as a service and may install a set of SWinstructions from a non-transitory medium onto the sending appliance theexecuting instructions enabling the customer to configure a schedulethat may dictate processing for any interaction request sent from theappliance.

It is noted herein that processing the request may include a widevariety of tasks including responding (response) back to the requester.According to one implementation, an interaction request containing aschedule for initiating processing is formerly scheduled in the centerfor processing after it is received and the scheduling data is accessed.The interaction request might remain in an encrypted state (except forschedule data) before or until scheduled processing occurs. The customerschedule defines the exact point in time where it is acceptable to thecustomer for the processing to begin.

In one implementation registration for customer scheduled interactionprocessing may be offered to potential customers through other potentialaccess points such as a Facebook™ profile page 123 with the aid of SW166 b or from any other customer controlled home page such as home page124 with the aid of SW 116 c. SW 116 may provide a downloadableapplication program interface (API) or browser extension (Plug-in) thatincludes access to a server-hosted interface that may be used by thecustomer to attach a specific interaction-processing schedule to anyinteraction request sent to a participating entity such as contactcenter 104 represented in this example.

In one implementation, SW 116 (a-c) provides a standalone interface thatdownloads to and installs on the sending appliance used by the customerto create and send requests for interaction. In this implementation, thecustomer may configure one or more pending interaction requests forscheduled processing offline and may send such requests whenever theappliance has active connection to network 101. In this implementation,SW 126 (a-d) depicted as installed on customer appliances 109 (1-n) andon appliance 107 (1) represents a downloaded extension, API, orstandalone user interface (UI). Various levels of server assistancemight be provided with any downloaded instructions without departingfrom the spirit and scope of the present invention. SW instances 126(a-d) may vary slightly because they may be tailored to the type ofcommunications appliance and the operating platform they are downloadedto and installed on without departing from the spirit and scope of thepresent invention.

In one implementation a customer such as one operating communicationsappliance 107 (n), a standard plain old telephony service (POTS)telephone, may not have an available interface or program for attachinga processing schedule to an interaction request sent from the telephone.In this implementation an IMR system may intercept the call at switch110 within contact center 104 and may provide the capability for thecustomer to schedule processing with the aid of processor 111 running aninstance of SW 117 a. SW 117 a may be served by an application server(not illustrated), or it may be native to the processor. SW 117 a mayprovide an IMR version of SW interface capability described furtherabove with reference to SW 116 (a-c). It is noted herein that IMRservices may be distributed to other servers hosting other mediachannels without departing from the spirit and scope of the inventionand that IMR services are not limited to voice services.

In one implementation WFM server 114 may be charged with managingpending interaction requests that have customer-driven processschedules. WFM server 114 manages workforce scheduling of live agentsand may manage interaction-processing schedules for live agents workingindependently or in agent groupings. WFM server 114 with the aid of SW125 may manage scheduling and notification of pending interactionrequests to be processed according to specific customer schedules andmay reserve live agents and to some extent automated resources forprocessing those requests at the specific scheduled processing times anddates.

Server 114 includes a data repository 127 that is adapted to containdata relative to the active workforce availability and currentinteraction processing schedules as well as other scheduled duties oflive agents. WFM server 114 may interact with live agent stations 118(1-n) through agent desktop (DT) applications the agents use to log-intothe system and to direct their tasks including interaction processing.SW 125 may be distributed to more than one server without departing fromthe spirit and scope of the present invention. WFM server 114 representsone server location where scheduled processing of deferrableinteractions may be enforced by the contact center system.

SW 117 running on CTI processor 111 may collect information aboutcallers at switch 110 whom have requested scheduled processing of theirinteraction requests. According to one embodiment, such requests may besimilar to a call back request except that the schedule associated withthe request may be a firm schedule created by the customer that is notspecifically influenced by the contact center. Likewise, SW 117 brunning on router 131 may collect information about interaction requestsreceived at the router for further processing where customers havescheduled those requests for specific processing dates and times. SW 117c running on universal routing server 112 may collect information aboutinteractions submitted for routing and may in certain instances forwarddata about those interactions to WFM server 114 whenever there is aprocessing schedule attached or a decision has been made to schedule afuture processing for an interaction. It is noted herein that a decisionby a customer to schedule an interaction for future processing may bemade during the routing process such as when no live agent is availableto handle the interaction.

It is noted herein that a scheduled interaction request can be canceledprior to a scheduled time by sending a second request that explicitlycancels the first request for processing. Likewise, the schedule timefor processing the request can be updated by the customer after therequests has been sent. In one implementation the customer may specify ahard date or a defined window or range, such as not processing beforetime A or after time E set by the customers. The schedule data mayinclude references to times and/or events. In one implementation, theschedule may be a choice or an option created by the system presented tothe customer with other options in IMR or over a media channel.

In one implementation the customer may define one or more processingtimes and associated processing conditions. For example, one processingcondition may be not to open or manipulate the request at all before acustomer defined time of T-0, and between T-0 and T-1, answer by SMS orcall my number. If between T-1 and T-2 then answer by email but do notcall. If not answered by T-2 then discard the request deleting it fromall records.

In one implementation that involves authorization server 113 thecustomer may send an email to contact center 104 from an appliance suchas 107 (1). After drafting the email body, the customer may create aprocessing schedule governing when an agent or system may process therequest. The customer may then request an access token from server 113aided by SW 130. The access token gives permission to the center toprocess the request only at the scheduled time for processing set by thecustomer. The message may be encrypted until the processing timearrives. At the time of processing, the agent may decrypt the messagewith a decryption key gained upon successful presentation of the tokento server 113. In this implementation the message might only beavailable for decryption during the scheduled time for processing.Server 113 aided by SW 130 may institute a very small time windowsurrounding the processing date and time within which the decryption keymay be made available to the processing agent. In one implementation,the customer might tie two or more acceptable processing dates and timesfor processing the message. In this implementation the decryption keymay be available only at the scheduled times.

If the request is not accessed before the customer-scheduled date andtime, the decryption key may be permanently revoked (denial of service),rendering the request permanently non-legible. In case there is morethan one optional processing date and time, the decryption key may againbecome available to decrypt the message at the next available processingtime and date. Another option may be to cause deletion of the messagefrom a queue or inbox if it is not processed close enough to thescheduled processing time. If an agent of contact center 104 opens therequest at the appropriate time for processing, the authorization servermay grant the decryption key to decrypt the message so that the agentmay process it accordingly. Access to the decryption key may be achievedby presenting a token to an authorization server.

Customer control over the explicit processing schedule of an interactionrequest may be extended to different forms of multimedia requests orcontact methods. For example a customer may access contact centerservices through Website 122 by pressing an interactive option forreceiving a call back from the center. The customer might provide asummary or additional data explaining the intent of the customerregarding the request through a pop-up form associated with the callbackrequest. WFM server 114 may utilize routing services within the contactcenter to route interaction requests that are scheduled for processing.WFM server 114 may predict or even pre-schedule a resource like a liveagent to process the interaction before the scheduled processing timeassociated with the interaction. It is noted herein that the processingschedule created by the customer may be tagged to the interactionrequest or embedded therein and it may be the only unencrypted portionof the message. Therefore, the request may be decrypted before finalrouting to understand the intent of the message and the type ofinteraction requested by the customer. The media type requested inprocessing of the message may differ from the media type of the messageitself.

In other implementations, such as voice over Internet protocol (VoIP) orIMR-assisted voice communication, the invention may enable recordedvoice data submitted by the customer as part of a request (call) or leftmessage to include the acceptable processing schedule, where a call backmust be initiated at the scheduled processing time for the event beforethe recorded audio can be understood by an agent or by a voice responsesystem. In addition to text encryption and audio encryption, video mayalso be similarly encrypted such that the video of the caller may not beplayed or, if played, not deciphered by a human or optical recognitionprocess such as face recognition. This implementation may also apply tovideo mail messages.

In one implementation a customer may desire tech support from an ITdepartment. For example, the customer may be working with a “system” ona connected appliance (access appliance) and realize that something inthe setup (software configuration, or IT infrastructure) requiresfixing. The customer might contact the service center desk and expresshis or her goals. The actual processing of the request may be scheduledat such a time when the IT staff is there and the CC system is nothigh-loaded

FIG. 2 is a sequence diagram 200 depicting interaction between callcenter components and systems during interaction processing percustomer-driven schedule. Diagram 200 depicts several contact centercomponents that may interact with one another during practice of thepresent invention. In one implementation, an application 201 analogousto SW 117 (a-c) of FIG. 1 monitors all incoming interactions queued inan interaction queue 203. Interaction queue 203 may represent anyparking place for incoming interaction requests. Incoming interactionrequests that have a processing schedule are the focus of monitoring byapplication 201. When application 201 finds a request for interactionwith a processing schedule attached, the interaction queue returns theprocessing schedule along with data relevant to the interaction requestsuch as media type, location in the system (queue location, etc.), andthe like. In one implementation, application 201 may reside on a WFMserver enabling the server to monitor the interaction queue to detectrequests that are associated with a schedule.

Application 201 may register the request and the interaction-processingschedule with a workforce management (WFM) server 204, analogous toserver 114 of FIG. 1. WFM server 204 may then confirm the registrationrequest from application 201. WFM server 204 may handle scheduling andnotification services for all of the incoming interactions that arediscovered to include a processing schedule. The processing schedule maybe implicit such as request processing on Friday at 3:00PM. In oneimplementation, the customer may include a time window in schedulingsuch as 15 minutes before, up to 15 minutes after, the scheduled timefor the interaction processing. Interaction processing may include liveinteraction with the requestor and/or processing by an automated servicewithout departing from the spirit and scope of the present invention.

In one implementation, WFM server may look ahead to a scheduledprocessing time for an interaction and may predict or plan for theavailability of resources to handle the interaction request. WFM server204 may reserve one or more live agents depending on the number ofinteraction requests received that need to be processed per schedule,and the nature of the schedule itself. For example, if there are 20interaction requests that seek live assistance and that have similarschedules (coming due during a same time period) for processing, theserver may organize the availability of a group of agents to handlethose requests. The requests with scheduled processing may be mixed inwith the normal incoming traffic. The scheduled requests may receivepriority in the system over non-scheduled requests for interaction. Inone implementation a request that is scheduled by a customer forprocessing may be placed in front of a queue of many non-scheduledrequests if the wait time in queue would make the scheduled processingunlikely to occur.

WFM server 204 with the aid of an application such as SW 125 (FIG. 1)may apply action notification alerts to requests so that when aprocessing time and date arrives for a request, an alert signifying an“on-time” or “just-in-time” event fires relative to a request. The WFMserver may communicate with interaction router 202 analogous to router112 (FIG. 1) when it is time to process a request. Router 202 may checkand confirm immediate resource availability for the request and may thenroute the interaction request to a reserved resource or to one thathappens to be available at the time of interaction request processing.The interaction request may be routed to a target process or resource205 for handling the interaction.

The process or resource may be an auto attendant service, a live agentservice, or some other type of resource that might process aninteraction. After processing the interaction, the interaction resultsmay be reported back to the application and/or logged in a database forfuture reference. It is noted herein that there may be acts forencryption and decryption practiced in conjunction with requestprocessing according to another implementation where the customerdesires privacy and security. OAuth protocol may be used to providetoken-based security, and in one implementation server 113 of FIG. 1 maybe an OAuth enabled authentication server without departing from thespirit and scope of the present invention. It is also noted herein thatwhile receiving a callback from contact center might be one option, asecond call (scheduled) may be executed by the customer wherein thefirst call was to pre-alert the center to the scheduled interaction.This feature may be enabled and supported in an automated fashion on thecustomer's accessing device like a smart phone.

FIG. 3 is a process flow chart 300 depicting acts for initiating andsending an interaction request with a processing schedule according toone embodiment of the invention. In this series of acts, it is assumedthat the customer in act 301 has (on the sending communicationsappliance) a server-assisted or standalone user interface (UI) analogousto SW 126 (a-d) of FIG. 1 above. In act 301 the customer may initiate aninteraction request. In one implementation, the act of initiating aninteraction request by opening a communication application such as amessaging application automatically causes the UI, via program extensionor API to open in act 302. In another implementation the “schedulingassistant” may be manually executed and displayed in act 302.

In act 303 the scheduling assistant may prompt the customer to schedulethe request for processing by pop-up, text balloon, audio prompt, orother graphical or textual methods. In one implementation, the customermay determine whether or not to schedule a processing of the initiatedrequest for interaction in act 304. In one implementation, certaincontacts listed in the address book or contact list of the program usedto initiate the request may be pre-configured using the UI to alwaysreceive requests with a specified schedule for processing. In thisimplementation the UI may not appear until the customer selects arecipient for the request.

If the customer decides not to impose a schedule for processing theinitiated request, then the flow may proceed to act 305 and close forthat request. If the customer determines to schedule the request forprocessing, the flow may proceed to act 306. In act 306 the customerconfigures a schedule for processing. A schedule may include a time anda date that the customer desires that the goal of the intent of themessage be fulfilled. A response, which might result from a scheduledprocessing might be in another form of multimedia than the media used tosend the request. A process may be any type of processing that isperformed by the contact center or affiliates relative to the requestcontent, such as initiating transactions, recording information,matching products, registering a product, witnessing a purchase, issuinga certification, and the like. In one implementation the customer maydefine one or more processing times and associated processingconditions. For example, one processing condition may be not to open ormanipulate the request at all before a customer defined time of T-0, andbetween T-0 and T-1, answer by SMS or call my number. If between T-1 andT-2, then answer by email but do not call. If not answered by T-2, thendiscard the request deleting it from all records.

In act 307 the scheduling assistant may associate the schedule to theinitiated request by electronic tagging, embedding the data in themessage header, adding a data frame, or any other attachment method thatis machine-readable and understood by the receiving system software. Inact 308 the customer may send the request with the attached processingschedule. In this implementation, it is assumed that the request is inthe form of an electronic message, which may include both text andgraphics in the form of still pictures and or video with or withoutaudio. In one implementation the interaction request of act 301 may beinitiated from a Web page accessed from a Web server in the form of aninstant message application protocol (IMAP) communication or a hypertexttransfer protocol (HTTP) based request. In one implementation thescheduling assistant retains the schedule and alerts the customer whenthe scheduled time and date associated with a previously sent requestapproaches.

FIG. 4 is a process flow chart 400 depicting acts for offeringcustomer-driven processing scheduling from an interactive media response(IMR) system according to an implementation of the present invention. Inone implementation customers who call into a contact center may registera scheduled interaction request with an automated attendant, like an IMRsystem, which could support any media. Unlike a call-back scenario wherethe customer retains position in queue, the request for interaction mayspecify a time and date for processing the request and may iterate whichmedia channel (for response or interaction) to use to respond.

In act 401 an incoming voice call may arrive at an IMR attendedprocessing point dependant upon media type. In act 402 the IMR mightscreen the caller for intent typically by playing an audible menu thatthe caller may respond to. In this way the IMR system may determine theintent of the caller such as a desire for a future interaction. Theagent pool handling live calls (voice scenario) may be busy at the timeand estimated wait time in queue may be more than such callers wish toendure. The IMR system may interact with the caller to determine requestintent (what the caller wants to happen) before prompting for treatmentoptions in the absence of a live available agent.

The IMR system may prompt the caller in act 403 to engage in an optionto configure a schedule relevant to a future interaction such asprocessing of the intent of the request instead of, or in addition to,providing the option to the caller for receiving a standard call backover the same media at a time that is convenient for the contact center.Act 403 may not occur at all if IMR interaction with the caller takes apath away from scheduling a processing of the request. In oneimplementation the flow could be from act 402 to act 405 where the callmay receive a standard treatment.

In act 404 the caller (voice scenario) may determine whether or not toconfigure a schedule for initiating a processing of the requestaccording to intent of the caller. If the caller determines not to optfor a scheduled processing of the request intent in act 404, the processmay move to act 405 where the call may be serviced by the contact centersystem as a standard incoming call. In this implementation the callermay opt to remain in queue until a live agent becomes available tohandle the call, or the caller may elect a call back and may terminatethe call while remaining in the same virtual queue position andreceiving a response when the virtual queue position advances to thepoint that a live agent picks up the virtual call and makes a call backusing the origination number. It is noted herein that callback from thecontact center may represent just one option. In another implementation,the customer may initiate a second call (at a scheduled time) whereasthe first call alerts the contact center about the upcoming actual call.This option might be enabled in an automated way at the customer's enddevice such as a smart phone for example.

If the caller elects to configure a schedule for processing of therequest intent at act 404, the flow advances to act 406 where thecustomer may say the time and date for processing of the request intent.In one implementation, dates and times that the contact center does notoperate if any are disclosed to the caller so that the caller mayconfigure a reasonable schedule that coincides with center operationalhours. However, this is not specifically required in someimplementations where the agents in the center are on call 24/7, arehome agents with a flexible schedule, or are otherwise willing toconduct business during off hours.

In act 407 the IMR system records the time and date articulated by thecaller. In one implementation the time and date may also be entered on atelephone keypad. In act 408 the IMR system reports the request recordand schedule to a workforce management (WFM) server having access toagent scheduling and system capacity data. In this act the IMR systemmay confirm to the customer that the request scheduling was successfullyentered into the system. The caller may hang up terminating the call inact 409. In act 410 the WFM application extension may add the requestrecord including the contact information and scheduling data to acalendar that may be integrated with the workforce management calendar.

In one implementation the request record is translated from audio datato text. In this implementation the request record including requestintent and customer information within it may be encrypted until suchtime that the schedule arrives for processing. In one implementation theWFM server may retain enough knowledge of the request intent to be ableto predict or plan for the availability of an agent that is qualified tohandle the request or the availability of a process that is relevant tothe request intent. In one implementation, request intent remainsunencrypted while the caller data may be encrypted until the scheduleddate for processing the request arrives.

In act 411 the WFM application may set an interaction alert relative toone or more scheduled times and dates the caller may have submitted inthe schedule. It is noted herein that for some implementations where aprocess or transaction is a multi-step process or cannot be accomplishedin a single interaction, the caller may schedule the multipart processpart by part, adding more than one time and date, each time and daterelevant to an individual part of a larger process. The interactionalert simply notifies the server when a time and date for a scheduledprocessing of a request is about to occur so that the server may takeaction to alert other relevant services such as routing and the like.

In act 412 the WFM server may reserve or “book” a resource forresponding and/or processing the request. In act 413 the WFM server mayadd the data about the resource booked at act 412 to the scheduleinformation. Acts 412 and 413 are optional acts and are not specificallyrequired in order to practice the present flow according to oneembodiment of the invention. Just before a scheduled time and date forprocessing of an interaction request, the server having received analert of the pending event may send an alert of the pending event to theappropriate contact center system(s) in act 414. For example, if theintent of a registered request for interaction requires interaction witha live agent, the WFM server may alert the agent level routing serviceor system so the event may be routed to an appropriate agent reserved orotherwise determined adequate and available to handle the interaction.

In act 415 the contact center (CC) system or process is activatedaccording to the schedule associated to the request. In oneimplementation the request for interaction specifies a call back from alive agent and the scheduled date and time is observed during placementof an outbound call to the customer. Such a call may take priority overother outbound calls in an ongoing outbound calling campaign because ofprior expressed interest made by the original caller whom requested ascheduled of the intent of the request. After the interaction occurs,the CC system may report the results of any interaction or processing inact 416. Results of the interaction may include product data,transaction data, payment data, shipping information, statistics relatedto the interaction such as handling time, agent performance level, andso on.

The CC system may make a determination as to whether there are any morescheduled dates and times associated with the original scheduleconfigured at act 406 in act 417. In act 417 if there are no pendingtimes and dates other than the first processing date, the flow may moveto act 419 where the process may end for that caller. The flow may thenproceed to act 418 where the server may be updated to expunge theoriginal reference to the interaction request. If there is another dateand time for another future processing event relative to the requestpartly processed, then the flow may move to act 418 where the WFM servermay be updated (calendar) to reflect further scheduled dates and timeswhile the expired time and date associated with the request forinteraction may be deleted. In one implementation at the tail end of thescheduled interaction may include an option expressed to the caller toschedule additional processing dates and times for scheduled furtherprocessing of a new or revived request.

In one implementation of the invention the process depicted herein isapplicable to a VoIP CC system that uses a “soft switch” and a Web-basedversion of IMR in place of the previously mentioned components. In voiceimplementation it is very likely that the caller hangs up and thenreceives some type of media response or a notification of the processingof the intent of the request. It is also noted herein that the customermay have complete control of when an interaction should be answered orotherwise processed.

FIG. 5 is a process flow chart 500 depicting acts for leveragingtoken-based security for processing scheduled interaction requestsaccording to an implementation of the present invention. In act 501 acustomer takes action to connect to the network. In act 502 the customerdecides to initiate a request for interaction. In act 503 the schedulingassistant appears as was mentioned in the description further above forFIG. 4. In act 504 the scheduling assistant prompts the customer to adda schedule for initiating interaction processing. In act 505 thecustomer determines whether or not to add schedule data to the requestinitiated in act 502. If the customer determines not to schedule afuture interaction or process with the request, the flow may move to act506 where normal CC processing scenarios may occur.

If the customer determines to add a schedule to the request in act 505,the flow may proceed to act 507 where the customer may draft the messagefor send. At act 508 the customer may configure a scheduled process. Inthis implementation the message draft is prepared before a customerschedules processing to treat the request intent. In act 509 thecustomer may determine if scheduling is satisfactorily finished. Ifscheduling is not finished in act 509 the flow may move back to act 508for further configuration of the schedule to accompany the request.

If scheduling is finished to the satisfaction of the customer in act 509the flow may proceed to act 510 where the message originator may requesta token from an authentication (Auth) server analogous to server 113 ofFIG. 1. The recipient of the message may use a decryption key to accessthe request data. In act 511 the authentication server grants therequest, issues a token, and stores a copy of the token in a secure datastorage device. In act 512 the customer may be prompted to preview therequest for errors for edit-worthy text or graphics.

In act 513 the customer determines whether or not to continue theprocess without edits made to the message. If the customer determines inact 513 not to continue on with the current processing, then the flowmay move to act 514 where the customer may edit the message using toolsavailable through the user interface. The process may loop back to act512 for request preview after the customer performs one or more edits.In act 513 if the customer determines to continue with the process, theflow may move to act 515 where at least a portion of the generatedrequest may be encrypted. In act 516 the scheduling assistant (UI) mayassociate the schedule and the token to the message request. Thecustomer may send the scheduled message to the designated recipient inact 517. The process may then end for that caller in act 518.

In one implementation the CC recipient may present the token forauthentication ahead of the schedule date during a very short period.The time period added ahead of the schedule time may be relativelysmall. The time period might be applied to the schedule to define anacceptable window within which the recipient (human or machine) maybegin processing the request (pre-interaction tasks) just before thescheduled time to process. This may be referred to as just-in-timeprocessing where several tasks including message decryption may occurjust before the schedule time arrives for processing. The allotted timemay be as little as a few seconds to as much as a few minutes. Inanother implementation the exact time and date for processing of therequest must arrive before the WFM server alerts an appropriate CCcomponent to begin processing the request.

It is noted herein that scheduling may be strictly enforced with user ofa security token that is only available when the processing date occurs.In one implementation, scheduling may be initiated in an IMR session. Inone implementation a plug-in or downloadable application might beprovided to customer devices that include endpoint-based logic forautomatically scheduling a request for processing at the call center. Inone implementation there may be multiple processing times and mediadesignations for response set by the customer. In such implementationsthere may be more than one security token, each token configured foraccessing a portion of the request relative to an appropriate processingtime and media designation.

It will be apparent to one with skill in the art that thecustomer-driven scheduling system of the invention may be provided usingsome or all of the mentioned features and components without departingfrom the spirit and scope of the present invention. It will also beapparent to the skilled artisan that the implementations described aboveare specific implementations of a single broader invention that may havegreater scope than any of the singular descriptions taught. There may bemany alterations made in the descriptions without departing from thespirit and scope of the present invention.

What is claimed is:
 1. An apparatus comprising: a processor and amemory, the memory storing instructions executing from a non-transitoryphysical medium that when executed by the processor cause the processorto: detect when a request for interaction that is configured forscheduled processing is received or otherwise registered at a serviceaccess point associated with a contact center; identify schedule datafrom the request and add the schedule data along with a requestidentification and a location identifier to a scheduling and reportingapplication; consult a contact center interaction routing system inresponse to determining that the scheduled interaction request is to beprocessed; and route or cause processing of the interaction requestbased on the schedule data.
 2. The apparatus of claim 1, wherein therequest for interaction is a voice request in the form of plain oldtelephony service (POTS) or a voice over Internet protocol (VoIP). 3.The apparatus of claim 1, wherein the request for interaction is anemail, a short message service (SMS), or a multimedia message service(MMS) request.
 4. The apparatus of claim 1, wherein the request forinteraction is a video mail, a video call, or a Web request supported byany applicable Internet protocols.
 5. The apparatus of claim 1, whereinthe communications appliance is a telephone, a cellular phone, anandroid device, an electronic reader, or a tethered or un-tetheredcomputer.
 6. The apparatus of claim 1, wherein the service access pointis a telephone switch, a call distributor, or a network-connectedserver.
 7. The apparatus of claim 1, wherein the scheduling andreporting application is a work force management application havingaccess to workforce availability and schedule data.
 8. The apparatus ofclaim 1, wherein the routing system is one of a message routing system,a voice call routing system, or an integrated system adapted to routetext, voice, and multimedia requests for interaction.
 9. The apparatusof claim 1, wherein the schedule data includes a plurality of times toprocess the request or a plurality of media types for transmitting aresponse, wherein a particular media type is selected from the pluralityof media types based on a particular one of the plurality of timesselected to process the request.
 10. An apparatus comprising: aprocessor and a memory, the memory storing instructions executing from anon-transitory medium that when executed by the processor cause theprocessor to: distribute to or serve to a communications appliance, anexecutable interface for associating a schedule for processing to arequest for interaction; detect when a request for interaction isinitiated on a communications appliance; and execute or otherwisepresent the interface to facilitate configuration of the schedule forprocessing relative to the request for interaction.
 11. The apparatus ofclaim 10, wherein the request for interaction is a voice request in theform of plain old telephony service (POTS) or a voice over Internetprotocol (VoIP).
 12. The apparatus of claim 10, wherein the request forinteraction is an email, a short message service (SMS), or a multimediamessage service (MMS) request.
 13. The apparatus of claim 10, whereinthe request for interaction is a video mail, a video call, or a Webrequest supported by any applicable Internet protocols.
 14. Theapparatus of claim 10, wherein the communications appliance is atelephone, a cellular phone, an android device, an electronic reader, ora tethered or un-tethered computer.
 15. The apparatus of claim 10,wherein the schedule data includes a plurality of times to process therequest or a plurality of media types for transmitting a response,wherein a particular media type is selected from the plurality of mediatypes based on a particular one of the plurality of times selected toprocess the request.
 16. A method comprising acts: detecting by aprocessor executing coded instructions from a non-transitory physicalmedium when a request for interaction that is configured for a scheduledprocessing is received or otherwise registered at a service access pointassociated with a contact center; identifying schedule data from therequest and adding the schedule data along with a request identificationand a location identifier to a scheduling and reporting application;consulting a contact center interaction routing system in response todetermining that the scheduled interaction request is to be processed;and routing or causing processing of the interaction request based onthe schedule data.
 17. The method of claim 16, wherein the serviceaccess point is a telephone switch, a call distributor, or anetwork-connected server.
 18. The method of claim 16, wherein thescheduling and reporting application is a work force managementapplication having access to workforce availability and schedule data.19. The method of claim 16, wherein the routing system is one of amessage routing system, a voice call routing system, or an integratedsystem adapted to route text, voice, and multimedia requests forinteraction.
 20. The method of claim 16, wherein, the schedule dataincludes a plurality of times to process the request or a plurality ofmedia types for transmitting a response, wherein a particular media typeis selected from the plurality of media types based on a particular oneof the plurality of times selected to process the request.